Lipophilic balance – a new design principle for transmembrane anion carriers
Lipophilic balance – a new design principle for transmembrane anion carriers
Despite extensive interest in transmembrane anion carriers (anionophores), the factors that govern activity are still only partly understood. Herein we report a study which identifies a new principle for anionophore design, that of “lipophilic balance”. A series of simple thioureas with identical molecular formulae has been prepared and assayed for chloride/nitrate transport activity in synthetic vesicles. The molecules differ only in the positioning of the phenylthiourea binding unit within an 11-carbon linear chain. They are shown to possess very similar lipophilicities and anion affinities, while a test for leaching establishes that they locate almost exclusively in the vesicle membranes. Notwithstanding their close similarities, activities across the series show >5-fold variation, peaking when the phenylthiourea group is centrally located. The results suggest that transport is favoured by a balanced array of lipophilic substituents, possibly because this arrangement facilitates transfer of the complexed anion into the apolar membrane interior
1128-1134
Valkenier, Hennie
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Haynes, Cally J.E.
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Herniman, Julie
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Gale, Philip A.
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Davis, Anthony P.
dc9078a1-2baf-4e8a-9baf-15cd06467541
10 January 2014
Valkenier, Hennie
b9599ae0-1740-495b-a00e-841e7552e1bc
Haynes, Cally J.E.
c56ceaa2-ca95-4ef6-bcce-c5cb825c2ca0
Herniman, Julie
530b1a36-1386-4602-8df7-defa6eb3512b
Gale, Philip A.
c840b7e9-6847-4843-91af-fa0f8563d943
Davis, Anthony P.
dc9078a1-2baf-4e8a-9baf-15cd06467541
Valkenier, Hennie, Haynes, Cally J.E., Herniman, Julie, Gale, Philip A. and Davis, Anthony P.
(2014)
Lipophilic balance – a new design principle for transmembrane anion carriers.
Chemical Science, 5 (3), .
(doi:10.1039/c3sc52962b).
Abstract
Despite extensive interest in transmembrane anion carriers (anionophores), the factors that govern activity are still only partly understood. Herein we report a study which identifies a new principle for anionophore design, that of “lipophilic balance”. A series of simple thioureas with identical molecular formulae has been prepared and assayed for chloride/nitrate transport activity in synthetic vesicles. The molecules differ only in the positioning of the phenylthiourea binding unit within an 11-carbon linear chain. They are shown to possess very similar lipophilicities and anion affinities, while a test for leaching establishes that they locate almost exclusively in the vesicle membranes. Notwithstanding their close similarities, activities across the series show >5-fold variation, peaking when the phenylthiourea group is centrally located. The results suggest that transport is favoured by a balanced array of lipophilic substituents, possibly because this arrangement facilitates transfer of the complexed anion into the apolar membrane interior
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Accepted/In Press date: 11 November 2013
e-pub ahead of print date: 10 January 2014
Published date: 10 January 2014
Organisations:
Organic Chemistry: Synthesis, Catalysis and Flow
Identifiers
Local EPrints ID: 362706
URI: http://eprints.soton.ac.uk/id/eprint/362706
ISSN: 1478-6524
PURE UUID: 8f3278b2-a1e4-4862-9552-627f2fd37133
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Date deposited: 06 Mar 2014 08:57
Last modified: 15 Mar 2024 03:06
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Author:
Hennie Valkenier
Author:
Cally J.E. Haynes
Author:
Philip A. Gale
Author:
Anthony P. Davis
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